KATO Tadashi

J-GLOBAL         Last updated: Nov 15, 2016 at 12:50
 
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Name
KATO Tadashi
Affiliation
Tokyo Metropolitan University
Section
Department of Chemistry
Job title
Professor
Degree
D. Sc.(Tokyo Metropolitan University), M. Sc.(Tokyo Metropolitan University)

Research Areas

 
 

Academic & Professional Experience

 
Mar 1980
 - 
Mar 1984
Assistant Professor, Institure for Molecular Science
 
Apr 1984
 - 
Mar 1987
Assistant Professor, Tokyo Metropolitan University
 
Apr 1987
 - 
Dec 1997
Associate Professor, Tokyo Metropolitan University
 
Mar 1990
 - 
Sep 1990
Post-Doctral Fellow, Department of Chemistry, Washington University in St. Louis
 
Jan 1998
 - 
Mar 2004
Professor, Tokyo Metropolitan University
 
Apr 2005
 - 
Today
Professor, Tokyo Metropolitan University
 

Education

 
Apr 1972
 - 
Mar 1976
Department of Chemistry, Faculty of Science, Tokyo Metropolitan University
 
Apr 1976
 - 
Mar 1978
Division of Chemistry (Master Course), Graduate School of Science, Tokyo Metropolitan University
 
Apr 1978
 - 
Feb 1980
Division of Chemistry (Doctor Course), Graduate School of Science, Tokyo Metropolitan University
 

Published Papers

 
Effects of Oscillatory Shear on the Orientation of the Inverse Bicontinuous Cubic Phase in a Nonionic Surfactant/Water System
M. Yamanoi, Y. Kawabata, and T. Kato
Langmuir   32 2863-2873   2016   [Refereed]
Rheological properties of wormlike micelles formed in concentrated region of nonionic surfactant (C16E7)-water system
Y. Shimada, Y. Kawabata, and T. Kato
Colloid Polym. Sci.   293 3275-3283   2015   [Refereed]
KAWABATA YOUHEI, MURAKAMI AKIRA, KATO TADASHI
J Phys Chem B   118(4) 1022-1029   Jan 2014   [Refereed]
Mesoscopic Simulation of Phase Behaviors and Structures in an Amphiphile -Solvent System
K. Yamada, E. Yasuno, Y. Kawabata, T. Okuzono, and T. Kato
Phys. Rev. E   89 062310-7pp   2014   [Refereed]
Vesicle formations at critical vesicle concentration in a polyoxyethylene type nonionic surfactant system
Y. Kawabata, K. Ichiguchi, T Ando, and T. Kato
ColloidsSurf. A   462 179-185   2014   [Refereed]
Sato D, Obara K, Iwahashi M, Kato T
Langmuir   29(1) 121-132   Jan 2013   [Refereed]
NAGAI YUKO, KAWABATA YOUHEI, KATO TADASHI
J Phys Chem B   116(41) 12558-12566   Oct 2012   [Refereed]
KAWABATA YOUHEI, YASHIMA HIROHITO, KATO TADASHI
J Phys Chem B   116(5) 1593-1597   Feb 2012   [Refereed]
ENOZAWA HIDEO, TAKAHASHI TAKESHI, NISHINAGA TOHRU, KATO TADASHI, HASEGAWA MASASHI, IYODA MASAHIKO
Bull Chem Soc Jpn   85(10) 1120-1137 (J-STAGE)   2012   [Refereed]
Ito M, Kosaka Y, Kawabata Y, Kato T
Langmuir : the ACS journal of surfaces and colloids   27(12) 7400-7409   Jun 2011   [Refereed]
Kawabata Y, Shinoda T, Kato T
Physical chemistry chemical physics : PCCP   13(8) 3484-3490   Feb 2011   [Refereed]
Suganuma Y, Imai M, Kato T, Olsson U, Takahashi T
Langmuir : the ACS journal of surfaces and colloids   26(11) 7988-7995   Jun 2010   [Refereed]
Kosaka Y, Ito M, Kawabata Y, Kato T
Langmuir : the ACS journal of surfaces and colloids   26(6) 3835-3842   Mar 2010   [Refereed]
Enozawa H, Hasegawa M, Isomura E, Nishinaga T, Kato T, Yamato M, Kimura T, Iyoda M
Chemphyschem : a European journal of chemical physics and physical chemistry   10(15) 2607-2611   Oct 2009   [Refereed]
KAWABATA YOUHEI, MATSUNO AKIMI, SHINODA TOMOAKI, KATO TADASHI
J Phys Chem B   113(17) 5686-5689   Apr 2009
FUJII MASATOSHI, HAMOCHI NAGISA, KATO TADASHI
Jpn J Appl Phys   47(7 Issue 3) 6146-6148   Jul 2008   [Refereed]
BULUT S, HAMIT J, OLSSON U, KATO T
EUROPEAN PHYSICAL JOURNAL E   27(3) 261-273   2008   [Refereed]
Kato T, Kawabata Y, Fujii M, Kato T, Hato M, Minamikawa H
Journal of colloid and interface science   312(1) 122-129   Aug 2007   [Refereed]
Kawasaki H, Sasaki A, Kawashima T, Sasaki S, Kakehashi R, Yamashita I, Fukada K, Kato T, Maeda H
Langmuir : the ACS journal of surfaces and colloids   21(13) 5731-5737   Jun 2005   [Refereed]
Hato M, Yamashita I, Kato T, Abe Y
Langmuir : the ACS journal of surfaces and colloids   20(26) 11366-11373   Dec 2004   [Refereed]

Misc

 
KOSAKA YURIKO, ITO MAKIKO, KAWABATA YOUHEI, KATO TADASHI
日本原子力研究開発機構JAEA-Review(Web)   (2011-050) WEB ONLY 1-5-16   Mar 2012
加藤直
表面   49(12) 407-422   Dec 2011
Y, Kosaka, M. Ito, Y, Kawabata, and T. Kato
Langmuir   26(6) 3835-3842   2010
KOASAKA YURIKO, ITO MAKIKO, KAWABATA YOUHEI, KATO TADASHI
日本原子力研究開発機構JAEA-Review   263   Jan 2009
On the Concentration-Induced Growth of Nonionic Wormlike Micelles
S. Bulut, J. Hamit, U. Olsson and T. Kato
Eur. Phys. J. E   27 261-273   2008

Books etc

 
Self-Organized Surfactant Structures
Tadashi Kato, Yuka Shimada, Daisuke Nozu andYouhei Kawabata (Part:Contributor, Wormlike Micelles in a Binary Solution of Nonionic Surfactant C16E7 and Water)
Wiley-VCH   2010   ISBN:9783527319909
Sugar-Based Surfactants: Fundamentals and Applications
Hato M, Minamikawa H, Kato T (Part:Contributor, Sugar-based surfactants with isoprenoid-type hydrophobic chains-Physicochemical and Biophysical Aspects)
Taylor and Francis   2008   
Structure-Performance Relationships in Surfactants. Second Edition, Revised and Expanded. (Kunio Esumi and Minoru, Eds.)
Tadashi Kato (Part:Contributor, Microstructures of Nonionic Surfactant-Water Systems. From Dilute Micellar Solution to Liquid Crystal Phase)
Marcel Dekker   2003   
Dynamics of Morphology Transition in a Surfactant Systems. (in"The Physics of Complex Liquids")
World Scientific   1998   
Structure-Performance Relationships in Surfactants (Kunio Esumi and Minoru Ueno, Eds.)
Tadashi Kato (Part:Contributor, Microstructure of Nonionic Surfactants)
Marcel Dekker   1997   

Works

 
Fundamental Properties of Aqueous Solutions of Nonionic Surfactants Prepared from Oleic Acid of High Purity
1991 - 1996
Variation in Degree of Counterion Binding to Cesium Perfluorooctanoate Micelles with Surfactant Concentration
1996 - 1998
Effects of Shear Flow on the Structure of the Lamellar Phase Formed in Surfactant-Water System
1997
Structure of Self-Assembly formed by Glucose-Based Surfactants in Aqueous Solutions -Effects of Branching in Hydrocarbon Chain-
2001

Research Grants & Projects

 
Ministry of Education, Culture, Sports, Science and Technology: Grants-in-Aid for Scientific Research(基盤研究(B))
Project Year: Apr 2011 - Mar 2014    Investigator(s): Tadashi Kato
Ministry of Education, Culture, Sports, Science and Technology: Grants-in-Aid for Scientific Research(特定領域研究)
Project Year: 2006 - 2010    Investigator(s): Takao OHTA
In order to establish a new research field, the management group of Grant-in-Aid for Scientific Research on Priority Area "Creation of non-equilibrium soft matter physics: Structure and dynamics of mesoscopic systems" has been responsible for cond...
Ministry of Education, Culture, Sports, Science and Technology: Grants-in-Aid for Scientific Research(特定領域研究)
Project Year: 2006 - 2010    Investigator(s): Tadashi KATO
Although it has been known that the shear flow induces structural transition in the lyotropic phase (self-assemblies with a long-range order) composed of amphiphiles, the transition mechanism remains still unclear. In this study, we have focused o...
Ministry of Education, Culture, Sports, Science and Technology: Grants-in-Aid for Scientific Research(基盤研究(C))
Project Year: 2005 - 2007    Investigator(s): Hiroaki NAKAMURA
Dissipative particle dynamics (DPD) simulation was used to qualitatively clarify the phase diagram of the amphiphilic molecule hexaethylene glycol dodecyl ether (C12E6). In the present research, the hydrophilicity dependence of the phase structure...
Ministry of Education, Culture, Sports, Science and Technology: Grants-in-Aid for Scientific Research(基盤研究(B))
Project Year: 2003 - 2005    Investigator(s): Tadashi KATO
In the past 10 years, much attention has been paid to the effects of shear flow on the structure of a lamellar phase. In the present study, we have measured small-angle neutron and X-ray scattering, small-angle light scattering, and shear stress o...
Ministry of Education, Culture, Sports, Science and Technology: Grants-in-Aid for Scientific Research(基盤研究(C))
Project Year: 2002 - 2003    Investigator(s): Hirohisa YOSHIDA
The anisotropic polymer film, in which the stacked bilayer structure was perpendicular to the film surface, was prepared from the self-assemble amphiphilic monomer consisted of styrene and long alkyl ammonium chloride by the irradiation of low ene...
Ministry of Education, Culture, Sports, Science and Technology: Grants-in-Aid for Scientific Research(基盤研究(B))
Project Year: 1999 - 2001    Investigator(s): Tadashi KATO
Surfactant molecules form aggregates (called micelles) in water. When the surfactant concentration exceeds a specific value, these aggregates associate into higher-order structures such as lyotropic liquid crystal phases. As the length scale of th...
Structure and Dynamics of Self-Assembly Formed by Amphiphiles and Water